Displacement Calibration of Optical Tweezers With Gravitational Acceleration
IF 5
2区 物理与天体物理
Q1 INSTRUMENTS & INSTRUMENTATION
引用次数: 0
Abstract
Abstract In recent years, levitated particles of optical traps in vacuum have shown the enormous potential for precision sensor development and new physics exploration. However, the accuracy of the sensor is still hampered by the uncertainty of the calibration factor relating the detected signal to the absolute displacement of the trapped particle. In this paper, we suggest and experimentally demonstrate a novel calibration method for optical tweezers based on free-falling particles in vacuum, where the gravitational acceleration is introduced as an absolute reference. Our work provides a calibration protocol with a great certainty and traceability, which is significant in improving the accuracy of precision sensing based on levitated optomechanical systems.重力加速度下光镊的位移标定
近年来,真空光学阱悬浮粒子在精密传感器开发和新物理探索方面显示出巨大的潜力。然而,传感器的精度仍然受到与被捕获粒子的绝对位移有关的校准因子的不确定性的影响。本文提出并实验证明了一种基于真空中自由落体粒子的光镊标定新方法,其中引入了重力加速度作为绝对参考。我们的工作提供了一种具有高度确定性和可追溯性的校准方案,这对提高基于悬浮光学机械系统的精密传感精度具有重要意义。
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来源期刊
Photonic Sensors
Physics and Astronomy-Atomic and Molecular Physics, and Optics
CiteScore
8.60
自引率
2.30%
发文量
270
审稿时长
13 weeks
期刊介绍:
Photonic Sensors publishes original, peer-reviewed articles that report on new developments of interest to both the photonics and sensor communities in all fields of photonic sensing science and technology. Topics include optical fiber sensors, planar waveguide sensors, laser-based sensors, and biophotonic sensors, etc. Photonic Sensors focuses on experimental contributions related to novel principles, structures or materials for photonic sensors. Papers that report on investigations based on combinations of experimental and analytical/numerical approaches are also welcome.
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